A new concept to cancel insertion phase variation in MMIC amplitude controller

机译：一个新的概念，以取消MMIC幅度控制器中的插入相位变型

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A concept which keeps a very low insertion phase variation in an analog monolithic microwave IC (MMIC) amplitude controller is presented. This new approach, applicable to dual-gate FET (DGFET) variable-gain amplifiers, is to connect an active variable load to the second gate of the DGFET. This load makes use of a cold FET (with Vds=0 V) whose impedance varies depending on the amplitude command of the circuit. Then, the cold FET compensates the insertion phase change introduced by the DGFET attenuation control over a wide dynamic range. Based on this principle, a C-band GaAs MMIC attenuator for active antenna application has been designed. The phase variation versus gain is always lower than +or-2 degrees over a 20-dB gain/attenuation range.

机译：提出了一种在模拟微波IC（MMIC）幅度控制器中保持非常低的插入相位变化的概念。这种新的方法适用于双栅FET（DGFET）可变增益放大器，用于将Active Dransion负载连接到DGFET的第二栅极。该负载利用冷FET（具有VDS = 0 V），其阻抗根据电路的幅度命令而变化。然后，冷FET补偿了DGFET衰减控制在宽动态范围内引入的插入相变。基于该原理，设计了一种用于主动天线应用的C波段GaAs MMIC衰减器。相位变化与增益始终低于20-DB增益/衰减范围的+或2度。

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《IEEE Microwave and Millimeter-Wave Monolithic Circuits Symposium》|1990年||共4页
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Roques D.; Cazaux J.; Institute of Electric and Electronic Engineer;
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中图分类自动化技术、计算机技术;
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A new concept to cancel insertion phase variation in MMIC amplitude controller

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